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Inclusive cross section and double-helicity asymmetry for π0 production at midrapidity in p+p collisions at s =510 GeV
(American Physical Society, 2016) A. Adare; C. Aidala; N.N. Ajitanand; Y. Akiba; R. Akimoto; J. Alexander; M. Alfred; K. Aoki; N. Apadula; Y. Aramaki; H. Asano; E.T. Atomssa; T.C. Awes; B. Azmoun; V. Babintsev; M. Bai; X. Bai; N.S. Bandara; B. Bannier; K.N. Barish; S. Bathe; V. Baublis; C. Baumann; S. Baumgart; A. Bazilevsky; M. Beaumier; S. Beckman; R. Belmont; A. Berdnikov; Y. Berdnikov; D. Black; D.S. Blau; J.S. Bok; K. Boyle; M.L. Brooks; J. Bryslawskyj; H. Buesching; V. Bumazhnov; S. Butsyk; S. Campbell; C.-H. Chen; C.Y. Chi; M. Chiu; I.J. Choi; J.B. Choi; S. Choi; P. Christiansen; T. Chujo; V. Cianciolo; Z. Citron; B.A. Cole; N. Cronin; N. Crossette; M. Csanád; T. Csörgo; T.W. Danley; A. Datta; M.S. Daugherity; G. David; K. Deblasio; K. Dehmelt; A. Denisov; A. Deshpande; E.J. Desmond; L. Ding; A. Dion; P.B. Diss; J.H. Do; L. D'Orazio; O. Drapier; A. Drees; K.A. Drees; J.M. Durham; A. Durum; T. Engelmore; A. Enokizono; H. En'Yo; S. Esumi; K.O. Eyser; B. Fadem; N. Feege; D.E. Fields; M. Finger; F. Fleuret; S.L. Fokin; J.E. Frantz; A. Franz; A.D. Frawley; Y. Fukao; T. Fusayasu; K. Gainey; C. Gal; P. Gallus; P. Garg; A. Garishvili; I. Garishvili; H. Ge; F. Giordano; A. Glenn; X. Gong; M. Gonin; Y. Goto; R. Granier De Cassagnac; N. Grau; S.V. Greene; M. Grosse Perdekamp; Y. Gu; T. Gunji; H. Guragain; T. Hachiya; J.S. Haggerty; K.I. Hahn; H. Hamagaki; H.F. Hamilton; S.Y. Han; J. Hanks; S. Hasegawa; T.O.S. Haseler; K. Hashimoto; R. Hayano; X. He; T.K. Hemmick; T. Hester; J.C. Hill; R.S. Hollis; K. Homma; B. Hong; T. Hoshino; N. Hotvedt; J. Huang; S. Huang; T. Ichihara; Y. Ikeda; K. Imai; Y. Imazu; M. Inaba; A. Iordanova; D. Isenhower; A. Isinhue; D. Ivanishchev; B.V. Jacak; S.J. Jeon; M. Jezghani; J. Jia; X. Jiang; B.M. Johnson; E. Joo; K.S. Joo; D. Jouan; D.S. Jumper; J. Kamin; S. Kanda; B.H. Kang; J.H. Kang; J.S. Kang; J. Kapustinsky; D. Kawall; A.V. Kazantsev; J.A. Key; V. Khachatryan; P.K. Khandai; A. Khanzadeev; K. Kihara; K.M. Kijima; C. Kim; D.H. Kim; D.J. Kim; E.-J. Kim; G.W. Kim; H.-J. Kim; M. Kim; Y.-J. Kim; Y.K. Kim; B. Kimelman; E. Kistenev; R. Kitamura; J. Klatsky; D. Kleinjan; P. Kline; T. Koblesky; M. Kofarago; B. Komkov; J. Koster; D. Kotchetkov; D. Kotov; F. Krizek; K. Kurita; M. Kurosawa; Y. Kwon; R. Lacey; Y.S. Lai; J.G. Lajoie; A. Lebedev; D.M. Lee; G.H. Lee; J. Lee; K.B. Lee; K.S. Lee; S. Lee; S.H. Lee; M.J. Leitch; M. Leitgab; B. Lewis; X. Li; S.H. Lim; M.X. Liu; D. Lynch; C.F. Maguire; Y.I. Makdisi; M. Makek; A. Manion; V.I. Manko; E. Mannel; T. Maruyama; M. McCumber; P.L. McGaughey; D. McGlinchey; C. McKinney; A. Meles; M. Mendoza; B. Meredith; Y. Miake; T. Mibe; A.C. Mignerey; A.J. Miller; A. Milov; D.K. Mishra; J.T. Mitchell; S. Miyasaka; S. Mizuno; A.K. Mohanty; S. Mohapatra; P. Montuenga; T. Moon; D.P. Morrison; M. Moskowitz; T.V. Moukhanova; T. Murakami; J. Murata; A. Mwai; T. Nagae; S. Nagamiya; K. Nagashima; J.L. Nagle; M.I. Nagy; I. Nakagawa; H. Nakagomi; Y. Nakamiya; K.R. Nakamura; T. Nakamura; K. Nakano; C. Nattrass; P.K. Netrakanti; M. Nihashi; T. Niida; S. Nishimura; R. Nouicer; T. Novák; N. Novitzky; A.S. Nyanin; E. O'Brien; C.A. Ogilvie; H. Oide; K. Okada; J.D. Orjuela Koop; J.D. Osborn; A. Oskarsson; H. Ozaki; K. Ozawa; R. Pak; V. Pantuev; V. Papavassiliou; I.H. Park; J.S. Park; S. Park; S.K. Park; S.F. Pate; L. Patel; M. Patel; J.-C. Peng; D.V. Perepelitsa; G.D.N. Perera; D. Yu. Peressounko; J. Perry; R. Petti; C. Pinkenburg; R. Pinson; R.P. Pisani; M.L. Purschke; H. Qu; J. Rak; B.J. Ramson; I. Ravinovich; K.F. Read; D. Reynolds; V. Riabov; Y. Riabov; E. Richardson; T. Rinn; N. Riveli; D. Roach; S.D. Rolnick; M. Rosati; Z. Rowan; J.G. Rubin; M.S. Ryu; B. Sahlmueller; N. Saito; T. Sakaguchi; H. Sako; V. Samsonov; M. Sarsour; S. Sato; S. Sawada; B. Schaefer; B.K. Schmoll; K. Sedgwick; J. Seele; R. Seidl; Y. Sekiguchi; A. Sen; R. Seto; P. Sett; A. Sexton; D. Sharma; A. Shaver; I. Shein; T.-A. Shibata; K. Shigaki; M. Shimomura; K. Shoji; P. Shukla; A. Sickles; C.L. Silva; D. Silvermyr; B.K. Singh; C.P. Singh; V. Singh; M. Skolnik; M. Slunečka; M. Snowball; S. Solano; R.A. Soltz; W.E. Sondheim; S.P. Sorensen; I.V. Sourikova; P.W. Stankus; P. Steinberg; E. Stenlund; M. Stepanov; A. Ster; S.P. Stoll; M.R. Stone; T. Sugitate; A. Sukhanov; T. Sumita; J. Sun; J. Sziklai; A. Takahara; A. Taketani; Y. Tanaka; K. Tanida; M.J. Tannenbaum; S. Tarafdar; A. Taranenko; E. Tennant; R. Tieulent; A. Timilsina; T. Todoroki; M. Tomášek; H. Torii; C.L. Towell; M. Towell; R. Towell; I. Tserruya; H.W. Van Hecke; M. Vargyas; E. Vazquez-Zambrano; A. Veicht; J. Velkovska; R. Vértesi; M. Virius; V. Vrba; E. Vznuzdaev; X.R. Wang; D. Watanabe; K. Watanabe; Y. Watanabe; Y.S. Watanabe; F. Wei; S. Whitaker; A.S. White; S. Wolin; C.L. Woody; M. Wysocki; B. Xia; L. Xue; S. Yalcin; Y.L. Yamaguchi; A. Yanovich; S. Yokkaichi; J.H. Yoo; I. Yoon; Z. You; I. Younus; H. Yu; I.E. Yushmanov; W.A. Zajc; A. Zelenski; S. Zhou; L. Zou
PHENIX measurements are presented for the cross section and double-helicity asymmetry (ALL) in inclusive π0 production at midrapidity from p+p collisions at s=510 GeV from data taken in 2012 and 2013 at the Relativistic Heavy Ion Collider. The next-to-leading-order perturbative-quantum-chromodynamics theory calculation is in excellent agreement with the presented cross section results. The calculation utilized parton-to-pion fragmentation functions from the recent DSS14 global analysis, which prefer a smaller gluon-to-pion fragmentation function. The π0ALL results follow an increasingly positive asymmetry trend with pT and s with respect to the predictions and are in excellent agreement with the latest global analysis results. This analysis incorporated earlier results on π0 and jet ALL and suggested a positive contribution of gluon polarization to the spin of the proton ΔG for the gluon momentum fraction range x>0.05. The data presented here extend to a currently unexplored region, down to x∼0.01, and thus provide additional constraints on the value of ΔG. © 2016 American Physical Society.
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(IOP Publishing Ltd, 2021) A. Abed Abud; B. Abi; R. Acciarri; M.A. Acero; M.R. Adames; G. Adamov; D. Adams; M. Adinolfi; A. Aduszkiewicz; J. Aguilar; Z. Ahmad; J. Ahmed; B. Ali-Mohammadzadeh; T. Alion; K. Allison; S. Alonso Monsalve; M. Alrashed; C. Alt; A. Alton; P. Amedo; J. Anderson; C. Andreopoulos; M. Andreotti; M.P. Andrews; F. Andrianala; S. Andringa; N. Anfimov; A. Ankowski; M. Antoniassi; M. Antonova; A. Antoshkin; S. Antusch; A. Aranda-Fernandez; A. Ariga; L.O. Arnold; M.A. Arroyave; J. Asaadi; L. Asquith; A. Aurisano; V. Aushev; D. Autiero; M. Ayala-Torres; F. Azfar; A. Back; H. Back; J.J. Back; C. Backhouse; P. Baesso; I. Bagaturia; L. Bagby; N. Balashov; S. Balasubramanian; P. Baldi; B. Baller; B. Bambah; F. Barao; G. Barenboim; G.J. Barker; W. Barkhouse; C. Barnes; G. Barr; J. Barranco Monarca; A. Barros; N. Barros; J.L. Barrow; A. Basharina-Freshville; A. Bashyal; V. Basque; E. Belchior; J.B.R. Battat; F. Battisti; F. Bay; J.L. Bazo Alba; J.F. Beacom; E. Bechetoille; B. Behera; L. Bellantoni; G. Bellettini; V. Bellini; O. Beltramello; D. Belver; N. Benekos; C. Benitez Montiel; F. Bento Neves; J. Berger; S. Berkman; P. Bernardini; R.M. Berner; H. Berns; S. Bertolucci; M. Betancourt; A. Betancur Rodríguez; A. Bevan; T.J.C. Bezerra; V. Bhatnagar; M. Bhattacharjee; S. Bhuller; B. Bhuyan; S. Biagi; J. Bian; M. Biassoni; K. Biery; B. Bilki; M. Bishai; A. Bitadze; A. Blake; F.D.M. Blaszczyk; G.C. Blazey; E. Blucher; J. Boissevain; S. Bolognesi; T. Bolton; L. Bomben; M. Bonesini; M. Bongrand; F. Bonini; A. Booth; C. Booth; F. Boran; S. Bordoni; A. Borkum; T. Boschi; N. Bostan; P. Bour; C. Bourgeois; S.B. Boyd; D. Boyden; J. Bracinik; D. Braga; D. Brailsford; A. Branca; A. Brandt; J. Bremer; C. Brew; E. Brianne; S.J. Brice; C. Brizzolari; C. Bromberg; G. Brooijmans; J. Brooke; A. Bross; G. Brunetti; M. Brunetti; N. Buchanan; H. Budd; I. Butorov; I. Cagnoli; D. Caiulo; R. Calabrese; P. Calafiura; J. Calcutt; M. Calin; S. Calvez; E. Calvo; A. Caminata; M. 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Mouster; W. Mu; L. Mualem; J. Mueller; M. Muether; S. Mufson; F. Muheim; A. Muir; M. Mulhearn; D. Munford; H. Muramatsu; S. Murphy; J. Musser; J. Nachtman; S. Nagu; M. Nalbandyan; R. Nandakumar; D. Naples; S. Narita; A. Nath; D. Navas-Nicolás; A. Navrer-Agasson; N. Nayak; M. Nebot-Guinot; K. Negishi; J.K. Nelson; J. Nesbit; M. Nessi; D. Newbold; M. Newcomer; D. Newhart; H. Newton; R. Nichol; F. Nicolas-Arnaldos; E. Niner; K. Nishimura; A. Norman; A. Norrick; R. Northrop; P. Novella; J.A. Nowak; M. Oberling; J.P. Ochoa-Ricoux; A. Olivares Del Campo; A. Olivier; A. Olshevskiy; Y. Onel; Y. Onishchuk; J. Ott; L. Pagani; S. Pakvasa; G. Palacio; O. Palamara; S. Palestini; J.M. Paley; M. Pallavicini; C. Palomares; J.L. Palomino-Gallo; W. Panduro Vazquez; E. Pantic; V. Paolone; V. Papadimitriou; R. Papaleo; A. Papanestis; S. Paramesvaran; S. Parke; E. Parozzi; Z. Parsa; M. Parvu; S. Pascoli; L. Pasqualini; J. Pasternak; J. Pater; C. Patrick; L. Patrizii; R.B. Patterson; S.J. Patton; T. Patzak; A. Paudel; B. Paulos; L. Paulucci; Z. Pavlovic; G. Pawloski; D. Payne; V. Pec; S.J.M. Peeters; E. Pennacchio; A. Penzo; O.L.G. Peres; J. Perry; D. Pershey; G. Pessina; G. Petrillo; C. Petta; R. Petti; V. Pia; F. Piastra; L. Pickering; F. Pietropaolo; R. Plunkett; R. Poling; X. Pons; N. Poonthottathil; F. Poppi; S. Pordes; J. Porter; M. Potekhin; R. Potenza; B.V.K.S. Potukuchi; J. Pozimski; M. Pozzato; S. Prakash; T. Prakash; M. Prest; S. Prince; F. Psihas; D. Pugnere; X. Qian; M.C. Queiroga Bazetto; J.L. Raaf; V. Radeka; J. Rademacker; B. Radics; A. Rafique; E. Raguzin; M. Rai; M. Rajaoalisoa; I. Rakhno; A. Rakotonandrasana; L. Rakotondravohitra; Y.A. Ramachers; R. Rameika; M.A. Ramirez Delgado; B. Ramson; A. Rappoldi; G. Raselli; P. Ratoff; S. Raut; R.F. Razakamiandra; E. Rea; J.S. Real; B. Rebel; M. Reggiani-Guzzo; T. Rehak; J. Reichenbacher; S.D. Reitzner; H. Rejeb Sfar; A. Renshaw; S. Rescia; F. Resnati; A. Reynolds; M. Ribas; S. Riboldi; C. Riccio; G. Riccobene; L.C.J. Rice; J. Ricol; A. Rigamonti; Y. Rigaut; D. Rivera; A. Robert; L. Rochester; M. Roda; P. Rodrigues; M.J. Rodriguez Alonso; E. Rodriguez Bonilla; J. Rodriguez Rondon; S. Rosauro-Alcaraz; M. Rosenberg; P. Rosier; B. Roskovec; M. Rossella; M. Rossi; C. Rott; J. Rout; P. Roy; S. Roy; A. Rubbia; C. Rubbia; F.C. Rubio; B. Russell; D. Ruterbories; A. Rybnikov; A. Saa-Hernandez; R. Saakyan; S. Sacerdoti; T. Safford; N. Sahu; P. Sala; N. Samios; O. Samoylov; M.C. Sanchez; V. Sandberg; D.A. Sanders; D. Sankey; S. Santana; M. Santos-Maldonado; N. Saoulidou; P. Sapienza; C. Sarasty; I. Sarcevic; G. Savage; V. Savinov; A. Scaramelli; A. Scarff; A. Scarpelli; T. Schaffer; H. Schellman; S. Schifano; P. Schlabach; D. Schmitz; K. Scholberg; A. Schukraft; E. Segreto; A. Selyunin; C.R. Senise; J. Sensenig; M. Seoane; I. Seong; A. Sergi; D. Sgalaberna; M.H. Shaevitz; S. Shafaq; M. Shamma; R. Sharankova; H.R. Sharma; R. Sharma; R. Kumar; T. Shaw; C. Shepherd-Themistocleous; A. Sheshukov; S. Shin; I. Shoemaker; D. Shooltz; R. Shrock; H. Siegel; L. Simard; F. Simon; J. Sinclair; G. Sinev; J. Singh; J. Singh; L. Singh; V. Singh; R. Sipos; F.W. Sippach; G. Sirri; A. Sitraka; K. Siyeon; K. Skarpaas; A. Smith; E. Smith; P. Smith; J. Smolik; M. Smy; E.L. Snider; P. Snopok; D. Snowden-Ifft; M. Soares Nunes; H. Sobel; M. Soderberg; S. Sokolov; C.J. Solano Salinas; S. Söldner-Rembold; S.R. Soleti; N. Solomey; V. Solovov; W.E. Sondheim; M. Sorel; A. Sotnikov; J. Soto-Oton; A. Sousa; K. Soustruznik; F. Spagliardi; M. Spanu; J. Spitz; N.J.C. Spooner; K. Spurgeon; R. Staley; M. Stancari; L. Stanco; R. Stanley; R. Stein; H.M. Steiner; A.F. Steklain Lisbôa; J. Stewart; B. Stillwell; J. Stock; F. Stocker; T. Stokes; M. Strait; T. Strauss; S. Striganov; A. Stuart; J.G. Suarez; H. Sullivan; D. Summers; A. Surdo; V. Susic; L. Suter; C.M. Sutera; R. Svoboda; B. Szczerbinska; A.M. Szelc; H.A. Tanaka; B. Tapia Oregui; A. Tapper; S. Tariq; E. Tatar; R. Tayloe; A.M. Teklu; M. Tenti; K. Terao; C.A. Ternes; F. Terranova; G. Testera; T. Thakore; A. Thea; J.L. Thompson; C. Thorn; S.C. Timm; V. Tishchenko; J. Todd; L. Tomassetti; A. Tonazzo; D. Torbunov; M. Torti; M. Tortola; F. Tortorici; N. Tosi; D. Totani; M. Toups; C. Touramanis; R. Travaglini; J. Trevor; S. Trilov; A. Tripathi; W.H. Trzaska; Y. Tsai; Y.-T. Tsai; Z. Tsamalaidze; K.V. Tsang; N. Tsverava; S. Tufanli; C. Tull; E. Tyley; M. Tzanov; L. Uboldi; M.A. Uchida; J. Urheim; T. Usher; S. Uzunyan; M.R. Vagins; P. Vahle; G.A. Valdiviesso; E. Valencia; Z. Vallari; E. Vallazza; J.W.F. Valle; S. Vallecorsa; R. van Berg; R.G. van de Water; F. Varanini; D. Vargas; G. Varner; J. Vasel; S. Vasina; G. Vasseur; N. Vaughan; K. Vaziri; S. Ventura; A. Verdugo; S. Vergani; M.A. Vermeulen; M. Verzocchi; M. Vicenzi; H. Vieira de Souza; C. Vignoli; C. Vilela; B. Viren; T. Vrba; T. Wachala; A.V. Waldron; M. Wallbank; C. Wallis; H. Wang; J. Wang; L. Wang; M.H.L.S. Wang; Y. Wang; Y. Wang; K. Warburton; D. Warner; M.O. Wascko; D. Waters; A. Watson; P. Weatherly; A. Weber; M. Weber; H. Wei; A. Weinstein; D. Wenman; M. Wetstein; A. White; L.H. Whitehead; D. Whittington; M.J. Wilking; C. Wilkinson; Z. Williams; F. Wilson; R.J. Wilson; W. Wisniewski; J. Wolcott; T. Wongjirad; A. Wood; K. Wood; E. Worcester; M. Worcester; C. Wret; W. Wu; W. Wu; Y. Xiao; F. Xie; E. Yandel; G. Yang; K. Yang; S. Yang; T. Yang; A. Yankelevich; N. Yershov; K. Yonehara; T. Young; B. Yu; H. Yu; H. Yu; J. Yu; W. Yuan; R. Zaki; J. Zalesak; L. Zambelli; B. Zamorano; A. Zani; L. Zazueta; G.P. Zeller; J. Zennamo; K. Zeug; C. Zhang; M. Zhao; E. Zhivun; G. Zhu; P. Zilberman; E.D. Zimmerman; M. Zito; S. Zucchelli; J. Zuklin; V. Zutshi; R. Zwaska
The observation of 236 MeV muon neutrinos from kaon-decay-at-rest (KDAR) originating in the core of the Sun would provide a unique signature of dark matter annihilation. Since excellent angle and energy reconstruction are necessary to detect this monoenergetic, directional neutrino flux, DUNE with its vast volume and reconstruction capabilities, is a promising candidate for a KDAR neutrino search. In this work, we evaluate the proposed KDAR neutrino search strategies by realistically modeling both neutrino-nucleus interactions and the response of DUNE. We find that, although reconstruction of the neutrino energy and direction is difficult with current techniques in the relevant energy range, the superb energy resolution, angular resolution, and particle identification offered by DUNE can still permit great signal/background discrimination. Moreover, there are non-standard scenarios in which searches at DUNE for KDAR in the Sun can probe dark matter interactions. © 2021 CERN. Published by IOP Publishing Ltd on behalf of Sissa Medialab.
Vasotocin induces final oocyte maturation and ovulation through the production of a maturation-inducing steroid in the catfish Heteropneustes fossilis
(Academic Press Inc., 2011) V. Singh; K.P. Joy
The study reports for the first time vasotocin (VT) induction of final oocyte maturation and ovulation through the production of the maturation-inducing steroid 17, 20β-dihydroxy-4-pregnen-3-one (MIS, 17, 20β-DP). Post-vitellogenic follicles of the catfish Heteropneustes fossilis were incubated with different concentrations of VT (1, 10, 100 and 1000nM) for different time periods. Germinal vesicle breakdown [GVBD, as a marker of final oocyte maturation (FOM)] and ovulation were scored. In another series of experiments, the follicles were incubated with VT alone or in combination with VT receptor (V1 and V2) antagonists, and GVBD and ovulation were increased with progesterone, 17-hydroxy-4-pregnene-3, 20-dione (17-P) and 17, 20β-DP levels. VT stimulated both GVBD and ovulation in a concentration and time-dependent manner, and the responses were inhibited to varying degrees in groups incubated with the VT receptor antagonists. The V1 antagonist inhibited the responses by 2- to 3-fold and more than the V2 antagonist, and the combination was more potent than the separate incubation. Progestins increased time-dependently in the VT groups and the fold increase was greater for the MIS. The VT-induced steroid stimulation was significantly inhibited to near the control levels in co-incubations with both V1 and V2 receptor antagonists, in the order 17, 20β-DP>17-P>P4. The inhibition by the V1 receptor antagonist was greater than that with the V2 blocker, and followed the same order of inhibition described above. The results suggest that VT induces FOM and ovulation mainly through the V1 receptors. © 2011 Elsevier Inc.
Leukemia - A 15 years study
(2002) S. Rajendra; Shukla Jyoti; B. Dubey; V. Singh
Retrospective analysis of leukemia cases admitted in S.S. Hospital. IMS, BHU over the period of 15 years was done and correlated with other variables. It showed definite rising trend of acute myeloid leukemia.
Required sensitivity in the search of neutrinoless double beta decay in 124Sn
(Springer, 2020) M.K. Singh; L. Singh; V. Sharma; M.K. Singh; A. Kumar; A. Pandey; V. Singh; H.T. Wong
The INdia’s TIN (TIN.TIN) detector is under development in the search of neutrinoless double-β decay (0νββ) using 90% enriched 124Sn isotope as the target mass. This detector will be housed in the upcoming underground facility of the India-based Neutrino Observatory. We present the most important experimental parameters that would be used in the study of required sensitivity for the TIN.TIN experiment to probe the neutrino mass hierarchy. The sensitivity of the TIN.TIN detector in the presence of sole two neutrino double-β decay (2νββ) background is studied at various energy resolutions. The most optimistic and pessimistic scenario to probe the neutrino mass hierarchy at 3σ sensitivity level and 90% CL are discussed. © 2019, Indian Association for the Cultivation of Science.
On high strain fatigue behaviour of a high strength low alloy steel
(1977) S.K. Garg; V. Singh; P. Rama Rao
[No abstract available]
Search for Active-Sterile Antineutrino Mixing Using Neutral-Current Interactions with the NOvA Experiment
(American Physical Society, 2021) M.A. Acero; P. Adamson; L. Aliaga; N. Anfimov; A. Antoshkin; E. Arrieta-Diaz; L. Asquith; A. Aurisano; A. Back; C. Backhouse; M. Baird; N. Balashov; P. Baldi; B.A. Bambah; S. Bashar; K. Bays; R. Bernstein; V. Bhatnagar; B. Bhuyan; J. Bian; J. Blair; A.C. Booth; R. Bowles; C. Bromberg; N. Buchanan; A. Butkevich; S. Calvez; T.J. Carroll; E. Catano-Mur; B.C. Choudhary; A. Christensen; T.E. Coan; M. Colo; L. Cremonesi; G.S. Davies; P.F. Derwent; P. Ding; Z. Djurcic; M. Dolce; D. Doyle; D. Dueñas Tonguino; E.C. Dukes; H. Duyang; S. Edayath; R. Ehrlich; M. Elkins; E. Ewart; G.J. Feldman; P. Filip; J. Franc; M.J. Frank; H.R. Gallagher; R. Gandrajula; F. Gao; A. Giri; R.A. Gomes; M.C. Goodman; V. Grichine; M. Groh; R. Group; B. Guo; A. Habig; F. Hakl; A. Hall; J. Hartnell; R. Hatcher; H. Hausner; K. Heller; J. Hewes; A. Himmel; A. Holin; J. Huang; B. Jargowsky; J. Jarosz; F. Jediny; C. Johnson; M. Judah; I. Kakorin; D. Kalra; A. Kalitkina; D.M. Kaplan; R. Keloth; O. Klimov; L.W. Koerner; L. Kolupaeva; S. Kotelnikov; R. Kralik; Ch. Kullenberg; M. Kubu; A. Kumar; C.D. Kuruppu; V. Kus; T. Lackey; P. Lasorak; K. Lang; J. Lesmeister; S. Lin; A. Lister; J. Liu; M. Lokajicek; S. Magill; M. Manrique Plata; W.A. Mann; M.L. Marshak; M. Martinez-Casales; V. Matveev; B. Mayes; D.P. Méndez; M.D. Messier; H. Meyer; T. Miao; W.H. Miller; S.R. Mishra; A. Mislivec; R. Mohanta; A. Moren; A. Morozova; W. Mu; L. Mualem; M. Muether; K. Mulder; D. Naples; N. Nayak; J.K. Nelson; R. Nichol; E. Niner; A. Norman; A. Norrick; T. Nosek; H. Oh; A. Olshevskiy; T. Olson; J. Ott; J. Paley; R.B. Patterson; G. Pawloski; O. Petrova; R. Petti; D.D. Phan; R.K. Plunkett; J.C.C. Porter; A. Rafique; V. Raj; M. Rajaoalisoa; B. Ramson; B. Rebel; P. Rojas; V. Ryabov; O. Samoylov; M.C. Sanchez; S. Sánchez Falero; P. Shanahan; A. Sheshukov; P. Singh; V. Singh; E. Smith; J. Smolik; P. Snopok; N. Solomey; A. Sousa; K. Soustruznik; M. Strait; L. Suter; A. Sutton; S. Swain; C. Sweeney; B. Tapia Oregui; P. Tas; T. Thakore; R.B. Thayyullathil; J. Thomas; E. Tiras; J. Tripathi; J. Trokan-Tenorio; A. Tsaris; Y. Torun; J. Urheim; P. Vahle; Z. Vallari; J. Vasel; P. Vokac; T. Vrba; M. Wallbank; T.K. Warburton; M. Wetstein; D. Whittington; D.A. Wickremasinghe; S.G. Wojcicki; J. Wolcott; W. Wu; Y. Xiao; A. Yallappa Dombara; K. Yonehara; S. Yu; Y. Yu; S. Zadorozhnyy; J. Zalesak; Y. Zhang; R. Zwaska
This Letter reports results from the first long-baseline search for sterile antineutrinos mixing in an accelerator-based antineutrino-dominated beam. The rate of neutral-current interactions in the two NOvA detectors, at distances of 1 and 810 km from the beam source, is analyzed using an exposure of 12.51×1020 protons-on-target from the NuMI beam at Fermilab running in antineutrino mode. A total of 121 of neutral-current candidates are observed at the far detector, compared to a prediction of 122±11(stat.)±15(syst.) assuming mixing only between three active flavors. No evidence for ν¯μ→ν¯s oscillation is observed. Interpreting this result within a 3+1 model, constraints are placed on the mixing angles θ24<25° and θ34<32° at the 90% C.L. for 0.05 eV2≤Δm412≤0.5 eV2, the range of mass splittings that produces no significant oscillations at the near detector. These are the first 3+1 confidence limits set using long-baseline accelerator antineutrinos. © 2021 authors. Published by the American Physical Society.
Measurement of the midrapidity transverse energy distribution from √SNN = 130 Ge V Au + Au collisions at RHIC
(2001) K. Adcox; S.S. Adler; N.N. Ajitanand; Y. Akiba; J. Alexander; L. Aphecetche; Y. Arai; S.H. Aronson; R. Averbeck; T.C. Awes; K.N. Barish; P.D. Barnes; J. Barrette; B. Bassalleck; S. Bathe; V. Baublis; A. Bazilevsky; S. Belikov; F.G. Bellaiche; S.T. Belyaev; M.J. Bennett; Y. Berdnikov; S. Botelho; M.L. Brooks; D.S. Brown; N. Bruner; D. Bucher; H. Buesching; V. Bumazhnov; G. Bunce; J. Burward-Hoy; S. Butsyk; T.A. Carey; P. Chand; J. Chang; W.C. Chang; L.L. Chavez; S. Chernichenko; C.Y. Chi; J. Chiba; M. Chiu; R.K. Choudhury; T. Christ; T. Chujo; M.S. Chung; P. Chung; V. Cianciolo; B.A. Cole; D.G. D'Enterria; G. David; H. Delagrange; A. Denisov; A. Deshpande; E.J. Desmond; O. Dietzsch; B.V. Dinesh; A. Drees; A. Durum; D. Dutta; K. Ebisu; Y.V. Efremenko; K. El Chenawi; H. En'yo; S. Esumi; L. Ewell; T. Ferdousi; D.E. Fields; S.L. Fokin; Z. Fraenkel; A. Franz; A.D. Frawley; S.-Y. Fung; S. Garpman; T.K. Ghosh; A. Glenn; A.L. Godoi; Y. Goto; S.V. Greene; M. Grosse Perdekamp; S.K. Gupta; W. Guryn; H.-A. Gustafsson; J.S. Haggerty; H. Hamagaki; A.G. Hansen; H. Hara; E.P. Hartouni; R. Hayano; N. Hayashi; X. He; T.K. Hemmick; J.M. Heuser; M. Hibino; J.C. Hill; D.S. Ho; K. Homma; B. Hong; A. Hoover; T. Ichihara; K. Imai; M.S. Ippolitov; M. Ishihara; B.V. Jacak; W.Y. Jang; J. Jia; B.M. Johnson; S.C. Johnson; K.S. Joo; S. Kametani; J.H. Kang; M. Kann; S.S. Kapoor; S. Kelly; B. Khachaturov; A. Khanzadeev; J. Kikuchi; D.J. Kim; H.J. Kim; S.Y. Kim; Y.G. Kim; W.W. Kinnison; E. Kistenev; A. Kiyomichi; C. Klein-Boesing; S. Klinksiek; L. Kochenda; D. Kochetkov; V. Kochetkov; D. Koehler; T. Kohama; A. Kozlov; P.J. Kroon; K. Kurita; M.J. Kweon; Y. Kwon; G.S. Kyle; R. Lacey; J.G. Lajoie; J. Lauret; A. Lebedev; D.M. Lee; M.J. Leitch; X.H. Li; Z. Li; D.J. Lim; M.X. Liu; X. Liu; Z. Liu; C.F. Maguire; J. Mahon; Y.I. Makdisi; V.I. Manko; Y. Mao; S.K. Mark; S. Markacs; G. Martinez; M.D. Marx; A. Masaike; F. Matathias; T. Matsumoto; P.L. McGaughey; E. Melnikov; M. Merschmeyer; F. Messer; M. Messer; Y. Miake; T.E. Miller; A. Milov; S. Mioduszewski; R.E. Mischke; G.C. Mishra; J.T. Mitchell; A.K. Mohanty; D.P. Morrison; J.M. Moss; F. Mühlbacher; M. Muniruzzaman; J. Murata; S. Nagamiya; Y. Nagasaka; J.L. Nagle; Y. Nakada; B.K. Nandi; J. Newby; L. Nikkinen; P. Nilsson; S. Nishimura; A.S. Nyanin; J. Nystrand; E. O'Brien; C.A. Ogilvie; H. Ohnishi; I.D. Ojha; M. Ono; V. Onuchin; A. Oskarsson; L. österman; I. Otterlund; K. Oyama; L. Paffrath; A.P.T. Palounek; V.S. Pantuev; V. Papavassiliou; S.F. Pate; T. Peitzmann; A.N. Petridis; C. Pinkenburg; R.P. Pisani; P. Pitukhin; F. Plasil; M. Pollack; K. Pope; M.L. Purschke; I. Ravinovich; K.F. Read; K. Reygers; V. Riabov; Y. Riabov; M. Rosati; A.A. Rose; S.S. Ryu; N. Saito; A. Sakaguchi; T. Sakaguchi; H. Sako; T. Sakuma; V. Samsonov; T.C. Sangster; R. Santo; H.D. Sato; S. Sato; S. Sawada; B.R. Schlei; Y. Schutz; V. Semenov; R. Seto; T.K. Shea; I. Shein; T.-A. Shibata; K. Shigaki; T. Shiina; Y.H. Shin; I.G. Sibiriak; D. Silvermyr; K.S. Sim; J. Simon-Gillo; C.P. Singh; V. Singh; M. Sivertz; A. Soldatov; R.A. Soltz; S. Sorensen; P.W. Stankus; N. Starinsky; P. Steinberg; E. Stenlund; A. Ster; S.P. Stoll; M. Sugioka; T. Sugitate; J.P. Sullivan; Y. Sumi; Z. Sun; M. Suzuki; E.M. Takagui; A. Taketani; M. Tamai; K.H. Tanaka; Y. Tanaka; E. Taniguchi; M.J. Tannenbaum; J. Thomas; J.H. Thomas; T.L. Thomas; W. Tian; J. Tojo; H. Torii; R.S. Towell; I. Tserruya; H. Tsuruoka; A.A. Tsvetkov; S.K. Tuli; H. Tydesjö; N. Tyurin; T. Ushiroda; H.W. van Hecke; C. Velissaris; J. Velkovska; M. Velkovsky; A.A. Vinogradov; M.A. Volkov; A. Vorobyov; E. Vznuzdaev; H. Wang; Y. Watanabe; S.N. White; C. Witzig; F.K. Wohn; C.L. Woody; W. Xie; K. Yagi; S. Yokkaichi; G.R. Young; I.E. Yushmanov; W.A. Zajc; Z. Zhang; S. Zhou
The midrapidity transverse energy density for central Au + Au collisions was measured. It was found that such density is at least 1.6 times larger at √SNN=130 GeV (RHIC) than at √SNN = 17.2 GeV (CERN). The variation of the ET density per participant with centrality was observed to be very similar to the previously reported dependence of charged multiplicity density per participant at RHIC energies.
Effect of Surface Nanostructuring on Gene Expression for Protein Synthesis, Osteoblast Cells Recruitment and Size of Focal Adhesion: A Review
(Apple Academic Press, 2022) Nancy Raj; Rahul Agrawal; K. Chattopadhyay; R. Bansal; V. Singh
Dental implants provide oral rehabilitation by mimicking bone topography, faster bone formation, and rapid bone healing to enable early loading protocol with better stability. The dental implant surface affects the mechanical stability of the implant affecting cell adhesion and osteogenic cell response. Different techniques have shown biological advantages through increase in surface wettability, surface roughness, and altered surface topography. These have benefitted osseointegration in both healthy as well as a compromised bone through its underlying cellular mechanisms. The effects of nanostructuring are discussed in this chapter in terms of gene expression, biochemical stimuli, biocompatibility, corrosion resistance, cell metabolism, and its differentiation. © 2022 Apple Academic Press, Inc.
Flow measurements via two-particle azimuthal correlations in Au + Au collisions √SNN = 130 GeV
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The elliptic flow measurements via two-particle azimuthal correlations in Au + Au collisions at the relativistic heavy ion collider were studied. These measurements allowed to obtain the elliptic flow without event-by-event estimation of the reaction plane. It was found that the elliptic flow showed significant senstivity to both the collision centrality and the transverse momenta of emitted hadrons, suggesting rapid thermalization and strong velocity fields.

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